Neurocognitive and physiological factors during high-tempo operations
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Bibliographic Information
Neurocognitive and physiological factors during high-tempo operations
(Human factors in defence)
CRC Press, 2017
- : pbk.
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Note
"First issued in paperback 2017" -- T.p. verso
Includes bibliographical references and index
Description and Table of Contents
Description
Neurocognitive and Physiological Factors During High-Tempo Operations features world-renowned scientists conducting groundbreaking research into the basic mechanisms of stress effects on the human body and psyche, as well as introducing novel pharmaceutics and equipment that can rescue or improve maximal performance during stress. Its focus is on the military model as an exemplar for high-stress environments, the best for understanding human performance under stress, both in the short-term as well as in the long-term. The unprecedented demands on the modern soldier include constantly shifting enemy threat levels and tactics, ambiguous loyalties, rapidly evolving weaponry, and the need to amass, comprehend, retain, and act upon large datasets of information. During high-tempo operations, soldiers must maintain superior cognitive and physical skill levels throughout extended periods of little to no sleep. Furthermore, although a soldier fresh from training may perform at peak skill, the effects of cognitive and physical strain and sleeplessness during deployment can impair his or her ability to transfer instructional knowledge to complex real-life situations. It is necessary to understand how intense workloads, both mental and physical, combine with total sleep deprivation to alter soldier situation awareness, decision-making, and physical abilities. The resulting knowledge can be used to design rapid, deployable fitness-for-duty measures, alter training protocols, and assess training efficacy in order to enable decision-makers to act at peak ability during high operations tempo. In addition, dual-use applications of resulting knowledge and technology extend well into the civilian sector, to law-enforcement officers, healthcare professionals, and emergency responders. The book differs from many previous human factors publications by presenting state-of-the-art neuroscience data in a format that is comprehensible and informative for readers of diverse backgrounds. It not only details human behaviors and perception, but also provides concise brain imagery and physiological findings to support its conclusions. In addition, the incorporation of the US Army soldier model of extreme stress and extreme performance demands provides a real-life theme that anchors the scientific, organizational, assessment and response aspects of each chapter. This book synthesizes hard facts with real-life accounts of performing under stress and shows how a large oversight institution like the US Army can measure and improve human factors considerations for its members.
Table of Contents
- Contents: Foreword
- Introduction, Steve Kornguth
- Part 1 Cognition During Real-World Activities: Promises and challenges in translating neurofunctional research for army applications, Richard J. Genik II
- Modeling the impact of workload in network centric supervisory control settings, Mary L. Cummings and C.E. Nehme
- Systematic measurements of human behavior in naturalistic settings, Matthew Rizzo and Joan Severson
- Noninvasive monitoring of brain function with near infrared light, Andrew K. Dunn. Part 2 Cognition During Sleep Deprivation: Individual differences to sleep deprivation vulnerability and the neural connection with task strategy, metacognition, visual spatial attention, and white matter differences, Matthew Rocklage, W. Todd Maddox, Logan T. Trujillo and David M. Schnyer
- Identification and prediction of substantial differential vulnerability to the neurobehavioral effects of sleep loss, David F. Dinges and Namni Goel
- Sustaining performance: the other side of sleep, Robert Stickgold
- Factors affecting mnemonic performance in a nonhuman primate model of cognitive work load, Robert E. Hampson and Sam A. Deadwyler. Part 3 Cognition during Stress and Anxiety: Systems neuroscience approaches to measure brain mechanisms underlying resilience - towards optimizing performance, Martin P. Paulus, Alan N. Simmons, Eric G. Potterat, Karl F. van Orden and Judith L. Swain
- The cognitive neuroscience of insight and its antecedents, John Kounios and Mark Beeman
- Decision-making under risk and stress: developing a testable model, Richard Gonzalez and Israel Liberzon
- Brain processes during expert cognitive-motor performance: the impact of mental stress and emotion regulation, Bradley D. Hatfield and Amy J. Haufler. Part 4 Guidance from Military Leadership and Ethical Considerations: Military operations: humans not machines make the difference, James L. Merlo
- Is supraphysiological enhancement possible, and what are the downsides?, Karl E. Friedl
- The US army future concept for the human dimension: chief human dimension executive summary, Steven Chandler
- Sustaining performance in mass casualty environments, Annette Sobell
- Neuropsychiatry and aviation safety, Robert R. Ireland
- Closing remarks: realization of existing capabilities in sustaining performance, Rebecca M. Steinberg, Michael D. Matthews and Steve Kornguth
- Index.
by "Nielsen BookData"